I'm thinking of stress panels as used in home construction, i.e., a sandwich of two layers of plywood bonded to a core of styrofoam, extruded poly foam, or what have you, with epoxy, polyurethane glue, or perhaps contact cement. For the sides of a TD, these panels could be made up of two layers of 1/4" (perhaps 3/16" or even 1/8") ply and 1" of foam. Where more structure is required, like to attach doors and windows, the foam would be gouged or routed out and solid wood would be glued in. At the anterior, top, and posterior edges of the sides, the inner layer of plywood and core foam would be smaller than the outside by the height of the spars plus the thickness of the interior, ceiling skin. The rabbet, or shelf, thus created would support the ceiling skin. The spars would go on top. The ceiling skin would be held in place with clamped blocks and/or tie-down straps while a 3/4" fillet of putty made from epoxy thickened with wood flour (sanding dust) and coloidal silicate is applied to the joint from below and allowed to set up. Fiberglass tape may need to be applied with epoxy to add strength. The spaces between the spars would be filled in with solid wood before the outer roof skin is installed. The foam in the bottom edge of the side panels would be routed out to allow them to fit over, and be glued to, rails standing proud on the edges of the floor. Panels that need to be larger than the standard 4'x8' would be scarved to size. Possibly, this type of construction could be used for the floor as well.
Wiring, or conduits for wiring, would be incorporated into the walls before the inner skin is bonded to the foam -- at least, in the vertical sense. Horizontal wiring could be located in the same cavity that fits over the rails standing on the floor.
I believe that building a TD this way would give more strength and rigidity for less weight, not to mention better insulation, than conventional framing plus insulation. It would almost certainly be lighter than solid 3/4" plywood with finish paneling inside. For additional strength and adhesion, epoxy putty fillets covered with fiberglass tape could be added where panels meet at 90° angles. Cabinets could be pre-fabricated and installed as a unit and attached with epoxy putty fillets and fiberglass . Alternatively, cleats could be attached to the inside plywood layer with glue and epoxy putty fillets plus glass tape to support cabinets built in place.
Since this is all pretty theoretical and comes from a guy who has never even towed a camper, let alone built one, I would appreciate comments from people with experience in this sort of thing before I commit myself to building a rolling disaster. So, (1) does this sound feasible, or am I completely nuts
and (2) do you think that the benefits, if any, would be outweighed by the added complexity compared with conventional insulated construction? 
Cheers,
Bob
